CN1136757A

CN1136757A - Circuit board and circuit board module

Info

Publication number: CN1136757A
Application number: CN96101526A
Authority: CN
Inventors: 山本治
Original assignee: Toshiba Corp
Current assignee: Toshiba Corp
Priority date: 1995-01-13
Filing date: 1996-01-12
Publication date: 1996-11-27
Anticipated expiration: 2016-01-12
Also published as: CN1052373C; DE69636930T2; EP0722264B9; JPH08195534A; US5777851A; EP0722264B1; EP0722264A2; EP0722264A3; DE69636930D1

Abstract

A circuit board including a resin layer and a wiring structure buried in the resin layer for forming an electric circuit. In the circuit board, the wiring structure is provided with a connecting part for soldering a first electrical part. The wiring structure is provided with a connecting hole for connecting a second electrical part by inserting a fastening member, and the connecting part is positioned on a surface of the resin layer.

Description

Wiring board and circuit board module

The present invention relates to wiring board and circuit board module, relate in particular to a kind of have the wiring board formed with the topped line construction of resin bed forming circuit and a kind of have electric component etc. is installed the circuit board module of forming in the circuit board.

Printed substrate has a kind of like this layout, in this layout, presses the one or both sides of insulation board (thick 1 millimeter to 3 millimeters) to form with the circuitous pattern with 35 microns or 75 micron thickness that electrolytic copper foil is made at piece layer.Therefore just some problems are like this arranged, promptly the magnitude of current that can pass through in circuitous pattern is restricted, and needs jumper at the solid cross section of circuit.On " Japanese patent application No. Heisei 6-159119 communique ", disclosed a kind of wiring board that is intended to be used to solve above-mentioned two problems.

As shown in Figure 23, this wiring board has a kind of like this layout, and the line construction 1 of forming circuit figure is topped with resin bed 2 in this layout.As shown in figure 24, line construction 1 has such shape, and multi-line spare 1a is the three-dimensional assembling therein.In the example of this layout, hole shape connector 1b or guide member 1c form on line member 1a.When little electric component was connected in line construction 1, the end of a thread of electric component was welded on the connector 1b.In addition, when big electric component was connected in line construction 1, the end of a thread of electric component just was inserted into and is used to weld in the guide member 1c.

Yet, adopting the layout of above-mentioned prior art, the height and position of connector 1b is inconsistent.Like this, the welding job of little electric component just can not use printed substrate immersed solder slot device to finish.Therefore, just need by hand or manipulator (robot) is soldered to little electric component on the connector 1b singly.Thereby the operability that connects little electric component is just poor.In addition, after being inserted into big electric component on the guide member 1c, welding job will be by just carrying out wiring board and electric component reversing down.Therefore, connect the operability of these electric components even poorer.

Therefore, an object of the present invention is to provide a kind of wiring board that connects the electric component operability that improves.

Another object of the present invention provides a kind of circuit board module that connects the electric component operability that improves.

These and other purpose of the present invention can realize that this wiring board includes a resin bed and is embedded in the line construction that is used to form electric wiring in this resin bed by a kind of like this wiring board is provided.On this wiring board, the line construction setting is to use connector in order to weld first electric component.Line construction is provided with a connecting hole and is used for connecting one second electric component by injecting a fixture, and connector is arranged on the surface of resin bed.

According to a kind of situation of the present invention, can realize that this circuit board module comprises a resin bed and forms and be embedded in the line construction that being used in the resin bed constitutes electric wiring by a plurality of line member that are assembled into by three-dimensional by a kind of like this circuit board module is provided.Circuit board module also comprises a plurality of first electric components, a plurality of second electric component and a plurality of fixture.Line construction is provided with a plurality of connectors that form in line member.Each first electric component is welded in a connector respectively.Line construction is provided with a plurality of connecting holes that form on line member.Each second electric component is connected in a line member by a fixture is injected in a connecting hole respectively.Connector is arranged on the surface of resin bed.

By another kind of situation of the present invention, can realize that this circuit board module comprises that a resin bed and being used to constitutes an electric wiring, forms and be embedded in a line construction in the resin bed by be assembled into a plurality of line member by three-dimensional by a kind of like this circuit board module is provided.Circuit board module also comprises a plurality of first electric components, second electric component and a plurality of fixture.Line construction is provided with a plurality of connectors that form on line member.Each first electric component is welded in a connector respectively.Line construction is provided with a plurality of connecting holes that form on line member.Second electric component is connected in a line member by respectively a fixture being injected in a connecting hole.Connector is arranged on the surface of resin bed and connecting hole is arranged on the surface portion of resin bed.

When by when of the present invention, will easily obtaining the more complete evaluation of the present invention and its many attendant advantages, wherein with reference to having understood preferably following detailed description of doing of contrast accompanying drawing:

Fig. 1 is the sectional elevation along the first embodiment of the invention of A-A line among Fig. 2;

Fig. 2 is a strabismus stereogram of first embodiment of the invention;

Fig. 3 is a strabismus stereogram of line construction shown in Fig. 2;

Fig. 4 is a sectional elevation of second embodiment of the invention;

Fig. 5 is a sectional elevation of third embodiment of the invention;

Fig. 6 is the sectional elevation along the fourth embodiment of the invention of Fig. 7 A-A line;

Fig. 7 is a strabismus stereogram of fourth embodiment of the invention;

Fig. 8 is a strabismus stereogram of fifth embodiment of the invention;

Fig. 9 is a strabismus stereogram of sixth embodiment of the invention

Figure 10 is a sectional elevation along the seventh embodiment of the invention of Figure 11 B-B line;

Figure 11 is a strabismus stereogram of seventh embodiment of the invention;

Figure 12 is a sectional elevation along the eighth embodiment of the invention of Figure 13 line A-A;

Figure 13 is a strabismus stereogram of eighth embodiment of the invention;

Figure 14 is the sectional elevation along the ninth embodiment of the invention of Figure 15 A-A line;

Figure 15 is a strabismus stereogram of ninth embodiment of the invention;

Figure 16 is a sectional elevation along the tenth embodiment of the invention of Figure 17 B-B line;

Figure 17 is a strabismus stereogram of tenth embodiment of the invention;

Figure 18 is a sectional elevation along the eleventh embodiment of the invention of Figure 19 B-B line;

Figure 19 is a strabismus stereogram of eleventh embodiment of the invention;

Figure 20 is a sectional elevation along the twelveth embodiment of the invention of Figure 21 B-B line;

Figure 21 is a strabismus stereogram of twelveth embodiment of the invention;

Figure 22 is a strabismus stereogram of thriteenth embodiment of the invention;

Figure 23 is the strabismus stereogram of a traditional circuit plate; And

Figure 24 is the strabismus stereogram in a traditional circuit structure of wiring board shown in Figure 23.

Referring now to these accompanying drawings, identical label is represented same or corresponding part in all these accompanying drawings, below the embodiments of the invention will be described.

Be explanation below according to Fig. 1 to 3 pair of first embodiment of the invention.In Fig. 2, at first in being equivalent to an injection molding body 11 of " resin bed ", form four taper hole 11a, and screw (not shown) is imbedded in each taper hole 11a.Then, as shown in fig. 1, injection molding body 11 is fixed on the apparatus main body 12 by screw being screwed in the apparatus main body 12 (a for example changer body).In addition, four supporting leg 11b (only illustrating two) integrally combine with the downside of injection molding body 11.Between four supporting leg 11b and apparatus main body 12, form a space segment 13.The line construction 14 of one forming circuit is embedded in the injection molding body 11.This line construction 14 is to be made into by a cutting and a crooked conductor metal plate, and has the configuration that can be assembled into multi-line spare 14a by three-dimensional, sees Fig. 3.Then, the connector 14b to lower convexity forms in the line member 14a of regulation respectively.As shown in Figure 1, these connectors 14b arranges along the downside of injection molding body 11.Adopt this structure, they are exposed on the downside of injection molding body 11.

As shown in Figure 3, the first connecting hole 14c forms on each connector 14b of line construction 14.These first connecting holes 14c forms by finish punching course on line construction 14, and is arranged on the connector 14b along injection molding body 11 downsides.In addition, as shown in Figure 2, on injection molding body 11, form two perforate 11c.As shown in Figure 1, the connector 14b of line construction 14 is by on the upper surface that passes perforate 11c and be exposed to injection molding body 11.In addition, be provided with less electric component, the capacitor 16 of resistance 15 and low capacity for example, and the binding post 16a of the binding post 15a of resistance 15 and low value capacitor 16 is welded in the first connecting hole 14c of connector 14b by perforate 11c.

Here, injection molding body 11 is to be processed into the inserts injection moulding, and in this course of processing, resin is to be injected in the line construction 14 under the state in line construction 14 is seated in a mould (not shown).Material as injection molding body 11 is a kind of thermoplastic resin that can be enough to bear heat when welding resistance 15 and electric capacity 16.Effect as injection molding body 11 is to guarantee that the insulation distance and the connector between electric component and line construction spare 14 that are connected to line construction 14 electric components prevent vibration, and these can be realized.

On line construction 14, form the second connecting hole 14d that is equal to " connecting hole ".These second connecting holes 14d forms when carrying out punch process line construction 14, and is arranged on the same horizontal plane on the connector 14b formation plane.In addition, many perforates 11d forms on the downside of injection molding body 11.The second connecting hole 14d passes perforate 11d and is exposed on the downside of injection molding body 11.Then, electric component that will be bigger inserts among the perforate 11d of injection molding body 11 as rectifying tube 17 and large value capacitor 18.

As shown in Figure 2, multichannel round hole 11e forms on the upper surface of injection molding body 11.As shown in Figure 1, the second connecting hole 14d of line construction 14 passes on the upper side that perforate 11e is exposed to injection molding body 11.Then, the screw 19 that will be equivalent to " securing member " from the perforate 11e of the injection molding body 11 second connecting hole 14d by line construction 14 is screwed into rectifying tube 17 and capacitor 18.Adopt this structure, rectifying tube 17 and capacitor 18 are connected to line construction 14.

Be explanation below to above-mentioned wiring board production process.At first, in the cavity of line construction 14 being put into mould after, form injection molding body 11 by the resin of fusion is injected inner chamber.Then, the perforate 11c by injection molding body 11 injects the binding post 15a of resistance 15 and the binding post 16a of capacitor 16 in the first connecting hole 14c of line construction 14.Automatically carry out synchronous welding processing with the solder bath device then to printed substrate.

When resistance 15 and electric capacity 16 have been connected, rectifying tube 17 and capacitor 18 are inserted in the perforate 11d of injection molding bodies 11.Then, the second connecting hole 14d that passes line construction 14 from the perforate 11e of injection molding body 11 is tightened in rectifying tube 17 and the capacitor 18 screw 19 automatically.With rectifying tube 17 and capacitor 18 with after line construction 14 is connected, screw (not shown) is injected in the taper hole 11a of injection molding body 11.With these screw-drivings in apparatus main body 12.

When using above-mentioned execution mode, be with such layout, be about to be soldered on these connectors 14b on the downside (surface) that multichannel connector 14b is arranged in injection molding body 11 and with resistance 15 and electric capacity 16.For this reason, just can carry out autosynchronous welding processing to printed substrate with the solder bath device.Therefore, make by hand or poor efficiency processing that manipulator welds little electric component one by one just is cancelled.Thereby improved the operability that connects little electric component.

In the present embodiment, also adopt such layout, promptly on line construction 14, form the second connecting hole 14d and screw is screwed into rectifying tube 17 and capacitor 18 automatically by the second connecting hole 14d.For this reason, with opposite, for just being connected work automatically with big electric component the capacitor 18 as rectifying tube 17 by big electric component being inserted the prior art that guide member welds.Therefore, the connection work of big electric component connection can full automation with the automatic weldering processing of the little electric component as resistance 15 and electric capacity 16.Like this, further improved the operability that connects electric component.In addition, because multichannel connecting hole 14b is arranged on the same horizontal plane, also have i.e. the tightening operation automatically and can carry out more simply of such advantage to screw 19.

Be according to the explanation of Fig. 4 below to second embodiment of the invention.Same part adopted with first embodiment in identical label, and omit explanation to them.Only be that those different parts are described below.Change the position of the second connecting hole 14d of line construction 14 in vertical direction by the difference in height of rectifying tube 17 and capacitor 18, so that the lower surface place of rectifying tube 17 and capacitor 18 at grade.Remove the supporting leg 11b of injection molding body 11 in addition.

Adjust the height and position of these second connecting holes 14d according to the change of line member 14a bending position.Be screwed into apparatus main body 12 by the screw 20 that will be equivalent to " securing member " and the downside of rectifying tube 17 is fixed on the apparatus main body 12.In addition, use the method that screw 20 is screwed into apparatus main body 12, the bearing 21 by being equivalent to " fixture " is fixed to the downside of capacitor 18 on the apparatus main body 12.

When using above-mentioned execution mode, adjust the position of the second connecting hole 14d by the difference in height of rectifying tube 17 and capacitor 18.The downside of rectifying tube 17 and capacitor 18 is fixed on the surface of stability (flat part) of apparatus main body 12.For this reason, the upper and lower two sides of rectifying tube 17 and capacitor 18 are stabilized support respectively.

Therefore, although rectifying tube 17 and capacitor 18 weigh greatly, even the external force as vibrating or impacting acts on the apparatus main body 12, can be just like vibrating such stress on the connector between the rectifying tube 17 and the second connecting hole 14d or on the connector between the capacitor 18 and the second connecting hole 14d yet.Thereby, protected the connector of rectifying tube 17 and the connector of large value capacitor 18.Therefore improved the reliability of whole device.In addition, because injection molding body 11 is supported by rectifying tube 17 and capacitor 18, also have such advantage, promptly the supporting leg 11b of injection molding body 11 can be removed.

Be according to the explanation of Fig. 5 below to third embodiment of the invention.Identical part adopts and the same label of first embodiment, and omits the explanation to them.Only be that those different parts are described below.One tubular shell 22 is by brazing leftward on the second connecting hole 14d position line construction 14.Sleeve pipe 22 is equivalent to one " tubular member " and makes with conducting metal.Screw 19 is screwed into rectifying tube 17 by sleeve pipe 22 from the second connecting hole 14d.In this way, rectifying tube 17 is connected to line construction 14.

Opposite with second embodiment, the second connecting hole 14d is forming on the line construction and is being arranged on the same horizontal plane in this embodiment.

The downside place of the downside of rectifying tube 17 and capacitor 18 at grade.This is to realize by the height dimension of adjusting sleeve pipe 22 by the difference in height of rectifying tube 17 and capacitor 18.The downside of rectifying tube 17 is to be fixed on the apparatus main body 12 by screw 20 is screwed into apparatus main body 12.In addition, the downside of capacitor 18 is that employing is fixed in the mode that screw 20 is screwed into apparatus main body 12 on the apparatus main body 12 by bearing 21.Sleeve pipe 22 is to be annotated in injection molding body 11 by embedding in the state of line construction 14 by brazing.In addition, the supporting leg 11b of injection molding body 11 is removed.

When using above-mentioned execution mode, the height dimension of sleeve pipe 22 is the difference in height adjustment by rectifying tube 17 and capacitor 18.The downside of rectifying tube 17 and capacitor 18 is fixed on the stabilising surface of apparatus main body 12 like this.For this reason, by the such same procedure of second embodiment, just can expect to obtain such effect, promptly the connecting portion of the connecting portion of rectifying tube 17 and capacitor 18 can be protected, and the supporting leg 11b of support injection molding body 11 can remove.In addition, because the heat that produces from rectifying tube 17 dissipates from sleeve pipe 22, line construction 14 is protected and avoids the heat effects that produced from rectifying tube 17.Therefore, see the reliability that has also improved system simultaneously from this viewpoint.

In above-mentioned the 3rd embodiment, sleeve pipe 22 by brazing on line construction 14.Yet the present invention is not limited to present embodiment, and for example sleeve pipe 22 can be riveted on the line construction 14.

In addition, among the superincumbent second and the 3rd embodiment, make the downside of rectifying tube 17 and capacitor 18 be in same plane.Yet the present invention is not limited to these embodiment.For example, rectifying tube 17 and capacitor 18 displacement a little in vertical direction.When this situation, the height dimension by regulating bearing 21, rectifying tube 17 and capacitor 18 can be fixed on the apparatus main body 12 by absorbing this displacement.

In addition, among the superincumbent second and the 3rd embodiment, rectifying tube 17 and capacitor 18 usefulness screws 20 are fixed on the apparatus main body 12.Yet the present invention is not limited to these embodiment.For example, can adopt the riveted joint and without screw 20.

In addition, among the superincumbent second and the 3rd embodiment, rectifying tube 17 directly is fixed on the apparatus main body 12.Yet, the invention is not restricted to these embodiment.Rectifying tube 17 can be fixed by a bearing with capacitor 18 same way as.

Be according to Fig. 6 and Fig. 7 explanation below to fourth embodiment of the invention.The same section employing and the first embodiment same numeral and omission are to their explanation.Only be explanation below to those different parts.At first, in Fig. 6, a current detector 23 that is equivalent to " electric component " is embedded in the injection molding body 11.In this example, installing hole and screw insertion hole are to form on current detector 23.Screw 23a is inserted in the screw insertion hole.

Current detector 23 is connected and be fixed on the line construction 14 by line construction 14 being inserted its installing holes and screw 23a being screwed into line construction 14.In addition, as shown in Figure 7, a perforate 11f forms at the top of injection molding body 11, and the joint 23b of current detector 23 (being used for power and signal draws) is exposed to the upper side of injection molding body 11 by perforate 11f.

By top embodiment, when making wiring board, at first line construction 14 is inserted in the installing hole of current detector 23.Then, the screw 23a with current detector 23 is screwed into line construction 14.Then, by in the groove of line construction 14 being put into mould to make injection molding body 11.Therefore, current detector 23 can be connected to line construction 14 when it and injection molding body 11 forms whole state, and the later stage does not carry out welding operation and tightens screw and operate.For this reason, attended operation and the fastening operation that is used for current detector can be simplified.

In addition, when measuring the electric current of inflow line line structure 14, only need pair of joint (not shown) is connected in the operation of the joint 23b of current detector 23.Therefore, the electric conducting material that does not just need to separate is connected in line construction 14 and current detector is connected in this electric conducting material.Therefore, just can make the entire circuit miniaturization.

Be according to the explanation of Fig. 8 below to fifth embodiment of the invention.Same section adopt with first embodiment in identical label and omission to their explanation.Only be explanation below to different parts.One plate shape circuitous pattern model element 11g is attached to the middle body of injection molding body 11 on short transverse, and the circuitous pattern model element 11g of circuitous pattern 24 goes up formation.The little circuit that circuitous pattern 24 forms as signal path.The electric component that is used for mounted on surface, for example transistor 25a, resistance 25b electric capacity 25c are installed on the circuitous pattern 24.

When using above-mentioned execution mode, circuitous pattern 24 is to form on injection molding body 11.Big circuit is made up of line construction 14, and little circuit such as signal path are made up of circuitous pattern 24.For this reason, separate situation about forming with the little circuit of printed substrate and compare, can realize reducing the wiring board number in this embodiment and make whole wiring board microminiaturization.

Be according to the explanation of Fig. 9 below to sixth embodiment of the invention.Same section adopts and label identical in the 5th embodiment and the omission explanation to them.Only be explanation below to those different parts.The joint 25d and the 25e that are equivalent to " guide body " are installed on the circuitous pattern 24.

Joint

25d and 25e are soldered on the circuitous pattern 24 under the state of its head bottom part reeve injection molding body 11, and consequently they overcome the intensity of the external force that becomes bigger as vibration.Surface mount package have overcome as vibrating external force be connected to

joint

25d and 25e than small intensity.

When with above-mentioned execution mode, have the high-intensity joint 25d and the 25e that overcome external force and be installed on the circuitous pattern 24.Have the low intensive surface mount package that overcomes external force and be connected in joint 25d and 25e., compare with the situation that these surface mount packages directly are welded on the circuitous pattern 24, the bonding strength with the low intensive surface mount package that overcomes external force is improved for this reason.Therefore, the reliability of the relevant electric component connection of whole little circuit is improved.

Be according to Figure 10 and Figure 11 explanation below to seventh embodiment of the invention.Label that same section adopts and the 6th embodiment is same and omission are to their explanation.Only be explanation below to those different parts.At first, in Figure 11, multichannel perforate 11h forms in injection 11, is set on the side of its circuitous pattern 24.The line construction 14 of part is exposed to the outside of injection molding body 11 respectively by perforate 11h.

As shown in figure 10, circuitous pattern connector 14e forms in line construction 14.Circuitous pattern connector 14e is positioned in the center of injection molding body 11 short transverses.One end of adapter piece 26 is welded on the circuitous pattern connector 14e.Adapter piece 26 is made by an electric conducting material is curved U-shaped.The other end of connector 26 is welded on the circuitous pattern 24 after being inserted into circuitous pattern model element 11g.

When with above-mentioned execution mode, the taking-up of the electric current that in line construction 14, flows and the voltage status of signal line construction 14, and give circuitous pattern 24 with the signal that these are removed and undertaken by adapter piece 26.Then, can be processed in circuitous pattern 24 from the signal of line construction 14.Therefore, the various parts that just do not need to be used for input are connected in line construction 14.Therefore, just can realize the microminiaturization of wiring board and the simplification of its layout.In addition, because the signal transmission distance (length dimension of adapter piece 26) that takes out from line construction 14 shortens, the resistance to the relevant noise of signal processing is increased.

In addition, circuitous pattern connector 14e and circuitous pattern model element 11g arrange at grade.For this reason, use a solder bath to carry out that simultaneously adapter piece 26 is welded in the operation of circuitous pattern connector 14e and circuitous pattern model element 11g and electric component to be welded in the operation of circuitous pattern 24 to printed substrate.

Be according to Figure 12 and Figure 13 explanation below to eighth embodiment of the invention.Same section adopts and label identical in the 7th embodiment and the omission explanation to them.Only be explanation below to those different parts.At first, in Figure 12, each second connecting hole 14d forms in the connector 14b of line construction 14.Adopt this structure, the downside setting of the second connecting hole 14d line structure 14 along the line of multichannel also is exposed on the downside of injection molding body 11.

Screw 19 is inserted into the second connecting hole 14d by the perforate 11e of injection molding body 11 respectively.The electrode 27a of the semiconductor device 27 of screw 19 by being equivalent to one " electric component " is screwed into semiconductor device 27 respectively.Adopt this structure, each electrode 27a of semiconductor device 27 is connected in line construction 14.In addition, as shown in figure 13, the door bolt 27b of semiconductor device 27 is pushed be welded in to the top of circuitous pattern 24 from the bottom by circuitous pattern model element 11g.

Yet when will be roughly being connected in line construction 14 with the such electricity piece of for example semiconductor device 27 of injection molding body 11 same sizes, the perforate 11d that is used for the electricity piece insertion can not form on injection molding body 11.About this point, adopt this embodiment, because the second connecting hole 14d is arranged on the downside of injection molding body 11, even electric component has the size roughly the same with injection molding body 11, it still can be connected to line construction 14.In addition, the connector between the second connecting hole 14d and semiconductor device 27 exposes, and so just can use the visual inspection connector from the outside.Therefore, just can improve the reliability of system.

In addition, the spacing that is equivalent to each electrode 27a length can form between injection molding body 11 downsides and semiconductor device 27 surfaces.Therefore, just can prevent that the binding post 15a of resistance 15 and the binding post 16a of capacitor 16 from contacting with semiconductor device 27 surfaces.For this reason, binding post 15a and binding post 16a just obtain hindering the operation that is screwed on the semiconductor device 27 in this method.Therefore, just can prevent to contact with the bad of semiconductor device 27.Simultaneously, can prevent that

binding post

15a and 16a from scratching the surface of semiconductor device 27.

Be explanation below according to Figure 14 and 15 pairs of ninth embodiment of the invention.Same section adopts as label identical in the 7th embodiment and omits explanation to them.Only be explanation below to those different parts.At first, in Figure 14, the multichannel connector 14f that raises up forms on line construction 14, and connector 14f is provided with along the upper space of injection molding body 11, thereby is exposed on the upper side of injection molding body 11.The second connecting hole 14d forms on each connector 14f.

As shown in figure 15, the two joint 28a that respectively are equivalent to the capacitor 28 of " electric component " are arranged on the connector 14f of line construction 14.As shown in figure 14, screw 19 is inserted into respectively among two the joint 28a and the second connecting hole 14d.In addition, the perforate 11i of multichannel forms on injection molding body 11.The connector 14f of line construction 14 is exposed on the downside of injection molding body 11 by perforate 11i.The electric component that separates then (representing with double dot dash line) injects respectively in the perforate 11i.The screw 19 that inserts among the joint 28a and the second connecting hole 14d is screwed into respectively on the interior electric component of perforate 11i.Adopt this structure, capacitor 28 and the electric component in perforate 11i are screwed in and are connected to line construction 14 together.

When with above-mentioned execution mode, the second connecting hole 14d arranges along the upper surface of injection molding body 11.Like this, just the electric component that separates can be injected among the perforate 11i and also respectively these electric components are screwed in capacitor 28.Therefore, the packing density of electric component is improved, and wiring board can be microminiaturized.In addition, the operation of tightening screw 19 can be carried out from the upper surface of injection molding body 11.Therefore, the operation of tightening screw 19 does not need injection molding body 11 rotated and is inverted or takes factitious operation posture just can finish simply in the once-through operation in the plane.

Among superincumbent the 9th embodiment, the joint of each capacitor 28 all is screwed on the second connecting hole 14d.Yet the present invention is not limited to present embodiment.One termination of each capacitor 28 can be screwed on the second connecting hole 14d, and another termination can be soldered on the circuitous pattern 24.Under the situation of this layout, capacitor 28 is used as connector, thereby just can be given circuitous pattern 24 by capacitor 28 from the signal of line construction 14.

Among superincumbent the 8th embodiment, the second connecting hole 14d is arranged on the downside of injection molding body 11, and they are to be arranged on the upper surface of injection molding body 11 among superincumbent the 9th embodiment.Yet the present invention is not limited to these embodiment.The second connecting hole 14d can be arranged on the both sides of injection molding body 11.In other words, they can be arranged on arbitrary surface of injection molding body 11.

Be explanation below according to Figure 16 and 17 pairs of tenth embodiment of the invention.Same part adopts with label same in the 7th embodiment and omits explanation to them.Only be explanation below to different parts.Circuitous pattern connector 14e is arranged on the downside of injection molding body 11.Their upper surface is exposed to the upper side of injection molding body 11 by perforate 11h, and their downside is exposed to the downside of injection molding body 11.In addition, circuitous pattern model element 11g is arranged on the downside of injection molding body 11.Like this, circuitous pattern model element 11g, multichannel connector 11b and circuitous pattern connector 14e are provided with at grade.

When with top execution mode, the connector 14b of the circuitous pattern 24 of circuitous pattern model element 11g, circuitous pattern connector 14e and multichannel is arranged in the same plane.For this reason, the electric component that uses solder bath that printed substrate is carried out all operations that electric component is welded in multichannel connector 14b simultaneously, connector 26 is welded in the operation of circuitous pattern connector 14e and circuitous pattern 24 and will be used for little circuit is welded in the operation of circuitous pattern 24.Therefore, significantly improved the operability that connects electric component.

Be explanation below according to Figure 18 and 19 pairs of eleventh embodiment of the invention.Same section adopts and label identical in the tenth embodiment and the omission explanation to them.Only be explanation below to different parts.At first, in Figure 19, printed substrate 29 is provided in a side of on the circuitous pattern model element 11g.The circuit of little circuit that the picture signals path is such or the low capacity more bigger than line construction 14 forms on printed substrate 29.Then, joint 29a and 29b are installed on the printed substrate 29.These

joints

29a and 29b are connected to the joint 25d and the 25e of circuitous pattern 24.Adopt this structure, the circuitous pattern of printed substrate 29 is connected in circuitous pattern 24.

As shown in figure 18, the many bracing or strutting arrangements 11j that is equivalent to " plug-in unit piecing devices " combines with circuitous pattern model element 11g.Printed substrate 29 is supported by bracing or strutting arrangement 11j.In addition, tapping screw thread screw 30j is screwed into printed substrate 29 and bracing or strutting arrangement 11j respectively from above.Like this, printed substrate 29 is fixed in bracing or strutting arrangement 11j by tapping screw thread screw 30.In addition, the groove 11k that is equivalent to " plug-in unit piecing devices " is combined in the side of injection molding body 11.By will stoping its inclination among the printed substrate 29 insertion groove 11k.

When with above-mentioned execution mode, bracing or strutting arrangement 11j and groove 11k form in injection molding body 11.Then, printed substrate 29 is assembled on bracing or strutting arrangement 11j and the groove 11k.Therefore, the circuit that can not form on line construction 14 or circuitous pattern 24 owing to the reason of space and cost just can form on printed substrate 29 and can be installed in the system.For this reason, many-sided function can be added on the device in case locking system becomes heavy in little space.In addition, printed substrate 29 just can be mounted on the injection molding body 11 without the part outside the tapping screw thread screw 30j.Just can realize the simplification of arranging and the reduction of cost like this, in the present embodiment.

Among superincumbent the 11 embodiment, bracing or strutting arrangement 11j and groove 11k are the examples as the plug-in unit piecing devices.Yet the present invention is not limited to present embodiment.For example, claw type plug-in unit piecing devices can be combined in the injection molding body 11, the hole can form in printed substrate 29, and arrange can be with the mode of claw type plug-in unit piecing devices being hung respectively in printed panel 29 holes.

In addition, among superincumbent the 11 embodiment, the arrangement of use is that printed substrate 29 is connected to circuitous pattern 24.Yet the present invention is not limited to present embodiment.Also can adopt a kind of like this layout is that it is connected in line construction 14 with printed substrate 29.

Be explanation below according to Figure 20 and 21 pairs of twelveth embodiment of the invention.Same section adopts with label identical in first embodiment and to their explanation and omits.Only be the explanation of those different parts below.Circuitous pattern model element 11g is shaped thicker, and printed substrate 30 is embedded in the circuitous pattern model element 11g.Printed substrate 30 is inserted in the mould when making surface mount package as joint 30a state mounted thereto.Adopt this structure, printed substrate 30 is cast in injection molding body 11 by embedding.

A perforate 11m forms in circuitous pattern model element 11g.The joint 30a of printed substrate 30 is exposed on the upper surface of circuitous pattern model element 11g by perforate 11m.Then, joint 31a is connected to the joint 30a of printed substrate 30 by perforate 11m.In addition, joint 31b is connected in joint 31a by cable 31c.Joint 31b is connected in the joint 29b of printed substrate 29.Therefore, printed substrate 30 is connected in line construction 14 by printed substrate 29 and circuitous pattern 24.

During execution mode, printed substrate 30 is to be embedded in the injection molding body 11 above using.Therefore, owing to the reason of space and cost can not form circuit in line construction 14, circuitous pattern 24 or printed substrate 29, and can on printed substrate 30, form and be installed in the system.For this reason, even in little space, can increase more many-sided function, also stop system to become huge.

Among superincumbent the 12 embodiment, be to adopt printed substrate 30 is connected in the such layout of printed substrate 29.Yet, the invention is not restricted to present embodiment.On the contrary, printed substrate 30 can be connected to circuitous pattern 24 or line construction 14.Particularly, be connected at printed substrate 30 under the situation of line construction 14, printed substrate and line construction can be put in the mould and embedding is cast in connection status underlying in advance.

Be according to the explanation of Figure 22 below to thriteenth embodiment of the invention.Same section adopts and label identical in the 12 embodiment and the omission explanation to them.Only be the explanation of those different parts below.An installing hole 11n who is equivalent to one " component assembling apparatus " forms on the upper surface of injection molding body 11.

The one vibration absorber circuit element 32 that is equivalent to " electric component " is assemblied on the upper surface of injection molding body 11.Vibration absorber circuit element 32 is by being fixed in injection molding body 11 in the installing hole 11n that a tapping screw thread screw (not shown) is screwed into injection molding body 11.In addition, a perforate 11o forms in injection molding body 11.The connector 14b of line construction 14 is exposed to the upper side of injection molding body 11 by perforate 11o.Then, the electrode piece of vibration absorber circuit element 32 is lead 32a and 32a, is soldered on the connector 14b by perforate 11o.

When adopting the foregoing description, installing hole 11n forms in injection molding body 11, and vibration absorber circuit element 32 is fixed by installing hole 11n.For this reason, just do not need to increase any special part that is used for fixing vibration absorber circuit element 32.Because employing part seldom is a tapping screw thread screw for example, it is simple that the installation of vibration absorber circuit element 32 just becomes.Therefore, with regard to the microminiaturization of feasible system and the reduction of cost.In addition, because the electrode piece of vibration absorber circuit element 32 is made up of lead 32a, vibration absorber circuit element 32 just can not be supported by its electrode piece.In the present embodiment, damping circuit element 32 is to be supported by injection molding body 11.Like this, just do not have stress on lead 32a, and improved the reliability of entire system.

In above-mentioned the 13 embodiment, regulation installing hole 11n is the example as " component assembling apparatus ".Yet the present invention is not limited to present embodiment.For example, component assembling apparatus can be made up of two pawls that face with each other.Under the situation of this layout, vibration absorber circuit 32 is to be mounted on the injection molding body 11 by it is advanced between two pawls.

In addition, among superincumbent first to the 3rd embodiment, screw 19 is that regulation is as " fixture ".Yet, the invention is not restricted to these embodiment.For example, can also replace screw 19 with rivet.

In addition, in above-mentioned first to the 3rd embodiment, multichannel connector 14b is the downside setting along injection molding body 11.Yet, the invention is not restricted to these embodiment.They can be on the upper surface or side surface of injection molding body, rather than on the downside of injection molding body 11.

In addition, in above-mentioned the first to the 13 embodiment, the second connecting hole 14d makes by the shape in hole.Yet, the invention is not restricted to these embodiment.For example, on the contrary, they can be made by the taper hole shape.

As from above-mentioned explanation clear see, wiring board of the present invention and circuit board module show following effect.By using a solder bath that is used for printed substrate that electric component is soldered to the multichannel connector simultaneously.In addition, can insert connecting hole by fixture automatically and connect electric component electric component.For this reason, but connect the operation full automation of electric component, thereby improved the operability of attended operation.

Obviously, can also make many changes and variation to the present invention according to above-mentioned saying.It is therefore to be appreciated that within the scope of the appended claims the present invention can be with specifically described embodied in other in this specification.

Claims

1. wiring board, it comprises:

One resin bed; With

One is embedded in the line construction that is used to form a circuit in the described resin bed;

Described line construction has the connector that is used to weld first electric component;

Described line construction has a connecting hole, is used for connecting second electric component by inserting fixture; And

Described connector is arranged on the surface of described resin bed.

2. wiring board as claimed in claim 1 is characterized in that:

Described line construction is made up of the line member that a plurality of three-dimensionals are assembled into;

A plurality of described line member constitute described circuit,

Described line construction is provided with a plurality of connectors that form on described line member;

Each described connector is provided for welding one of described first electric component respectively;

Described line construction is provided with a plurality of connecting holes that form on described line member;

Each described connecting hole is provided for respectively connecting one second electric component by inserting one of fixture; And

A plurality of described connectors are arranged on the described surface of described resin bed.

3. wiring board as claimed in claim 2 is characterized in that:

Described line construction is respectively equipped with and is used to connect a plurality of a plurality of connecting holes with second electric component of differing heights size,

The height and position of described connecting hole is respectively according to the height dimension dislocation of second electric component.

4. wiring board as claimed in claim 2, it is characterized in that: it also comprises:

Circuitous pattern model element in described resin bed is provided with a circuitous pattern thereon.

5. wiring board as claimed in claim 2, it also comprises:

One circuitous pattern model element in described resin bed is provided with a circuitous pattern thereon; With

A connection piece;

Wherein, described line construction is provided with a circuitous pattern connector; And described connector is connected between described circuitous pattern connector and the described circuitous pattern.

6. wiring board as claimed in claim 2 is characterized in that: described connecting hole is positioned on the upper surface of described resin bed.

7. wiring board as claimed in claim 5 is characterized in that: the described circuitous pattern model element of described circuitous pattern connector is arranged on the surface portion of described resin bed.

8. wiring board as claimed in claim 1 is characterized in that:

A plurality of described line member constitute described circuit;

Described line construction is provided with a plurality of connectors that form on the circuit member;

Each described connector is provided for welding one first electric component respectively;

Described line construction is provided with a plurality of described connecting holes that form in described line member;

Each described connecting hole is provided for respectively connecting described second electric component by inserting a described securing member;

A plurality of described connectors are arranged on the described surface of described resin bed; And

Described connecting hole is arranged on the surface portion of described resin bed.

9. circuit board module, it comprises:

One resin bed;

One is embedded in the line construction in the described resin bed, and it is made up of the line member of a plurality of three-dimensional assemblings and is used to constitute a circuit;

A plurality of first electric components;

A plurality of second electric components; With

A plurality of securing members;

Described line construction is provided with a plurality of connectors that form in described line member;

Each described first electric component is welded in a described connector respectively;

Described line construction is provided with a plurality of connecting holes that form in described line member;

Each described second electric component connects a described line member by a described securing member is inserted in the described connecting hole; And

Described connector is located on the surface of described resin bed.

10. circuit board module as claimed in claim 9 is characterized in that it also comprises a plurality of fixtures, wherein:

The height dimension of described second electric component is inequality;

The height and position of described connecting hole is the described height dimension difference dislocation by described second electric component;

One first termination of each second electric component connects a line member by respectively a described securing member being injected a described connecting hole; And

One second termination of each described second electric component is suitable for connecting an external device (ED) by a described fixture respectively, so that described second electric component on described second termination is in same plane.

11. circuit board module as claimed in claim 9, it also comprises:

One on a described connecting hole, be connected in described line construction tube-like piece and

A plurality of fixtures;

Wherein:

The height dimension of described second electric component is different;

The height and position of described connecting hole is on same plane;

First termination of described second electric component is inserted a described fixture in a described connecting hole by described tube-like piece and is connected to a described line member;

First termination of other each described second electric component is connected in a line member by a described securing member is injected in a described connecting hole respectively; And

Second termination of each described second electric component is adapted to pass through a described fixture and is connected in an external device (ED), so that described second electric component on described second termination is in same plane.

12. circuit board module as claimed in claim 9 is characterized in that, it also comprises one the 3rd electric component: wherein said the 3rd electric component is assemblied on the described line construction, and all is embedded in together in the described resin bed with described line construction.

13. circuit board module as claimed in claim 9 is characterized in that, it also comprises:

One circuitous pattern model element in described resin bed which is provided with circuitous pattern; With

An electric component that is used for mounted on surface that is installed on the described surfacial pattern.

14. circuit board module as claimed in claim 9 is characterized in that, it also comprises:

One circuitous pattern model element in described resin bed which is provided with a circuitous pattern;

A plurality of guide members that are installed on the described circuitous pattern model element are so that described guide member is connected in described circuitous pattern; With

One is installed in the electric component that is used for mounted on surface on the described guide member.

15. circuit board module as claimed in claim 9 is characterized in that, it also comprises:

One circuitous pattern model element in described resin bed which is provided with first circuitous pattern;

One which is provided with the printed substrate of second circuit figure;

A plurality of connectors that are used to be connected between described first circuitous pattern and the described second circuit figure;

A plurality of and described circuitous pattern model element combines, is used to support the card assembling device of described printed substrate; With

One first connector;

Wherein said line construction is provided with a circuitous pattern connector, and described first connector is connected between described circuitous pattern connector and described first circuitous pattern.

16. circuit board module as claimed in claim 15 is characterized in that, it also comprises:

One printed substrate that is embedded in the described resin bed which is provided with a tertiary circuit figure;

One is used to be connected second connector between described second circuit figure and the described tertiary circuit figure.

17. circuit board module as claimed in claim 9 is characterized in that, it also comprises: one is located at the component assembling apparatus that is used to assemble an electric component on the described resin bed.

18. a circuit board module, it comprises:

One resin bed;

The line construction that is used to constitute a circuit that one is embedded in the described resin bed, forms by the line member of a plurality of three-dimensionals assemblings;

A plurality of first electric components;

One second electric component; With

A plurality of securing members;

Each described first electric component is welded in respectively on the described connector;

Described line construction be provided with a plurality of in described line member, form connecting hole;

Described second electric component connects a described line member by respectively a securing member being injected in a described connecting hole; And

Described connector is arranged on described resin bed one surface; And

Described connecting hole is arranged on described resin bed one surface portion.